A combinatorial proof of a relationship between maximal (2k − 1, 2k + 1)-cores and (2k − 1, 2k, 2k + 1)-cores

Rishi Nath; James A. Sellers

doi:10.37236/5333

A combinatorial proof of a relationship between maximal (2k − 1, 2k + 1)-cores and (2k − 1, 2k, 2k + 1)-cores

Rishi Nath, James A. Sellers

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7 Scopus citations

Abstract

Integer partitions which are simultaneously t-cores for distinct values of t have attracted significant interest in recent years. When s and t are relatively prime, Olsson and Stanton have determined the size of the maximal (s, t)-coreκ_s,t. When k ≥ 2, a conjecture of Amdeberhan on the maximal (2k − 1,2k,2k + 1)-core κ_{2k−1, 2k, 2k+1} has also recently been verified by numerous authors. In this work, we analyze the relationship between maximal (2k − 1, 2k + 1)-cores and maximal (2k − 1, 2k, 2k + 1)-cores. In previous work, the first author noted that, for all k ≥ 1, |κ_2k−1,2k+1 | = 4|κ_{2k−1,2k,2k+1} | and requested a combinatorial interpretation of this unexpected identity. Here, using the theory of abaci, partition dissection, and elementary results relating triangular numbers and squares, we provide such a combinatorial proof.

Original language	English (US)
Journal	Electronic Journal of Combinatorics
Volume	23
Issue number	1
DOIs	https://doi.org/10.37236/5333
State	Published - Jan 22 2016
Externally published	Yes

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© 2016, Australian National University. All rights reserved.

Keywords

Abaci
P-cores
Symmetric group
Triangular numbers
Young diagrams

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title = "A combinatorial proof of a relationship between maximal (2k − 1, 2k + 1)-cores and (2k − 1, 2k, 2k + 1)-cores",

abstract = "Integer partitions which are simultaneously t-cores for distinct values of t have attracted significant interest in recent years. When s and t are relatively prime, Olsson and Stanton have determined the size of the maximal (s, t)-coreκs,t. When k ≥ 2, a conjecture of Amdeberhan on the maximal (2k − 1,2k,2k + 1)-core κ2k−1, 2k, 2k+1 has also recently been verified by numerous authors. In this work, we analyze the relationship between maximal (2k − 1, 2k + 1)-cores and maximal (2k − 1, 2k, 2k + 1)-cores. In previous work, the first author noted that, for all k ≥ 1, |κ2k−1,2k+1 | = 4|κ2k−1,2k,2k+1 | and requested a combinatorial interpretation of this unexpected identity. Here, using the theory of abaci, partition dissection, and elementary results relating triangular numbers and squares, we provide such a combinatorial proof.",

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AU - Sellers, James A.

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N2 - Integer partitions which are simultaneously t-cores for distinct values of t have attracted significant interest in recent years. When s and t are relatively prime, Olsson and Stanton have determined the size of the maximal (s, t)-coreκs,t. When k ≥ 2, a conjecture of Amdeberhan on the maximal (2k − 1,2k,2k + 1)-core κ2k−1, 2k, 2k+1 has also recently been verified by numerous authors. In this work, we analyze the relationship between maximal (2k − 1, 2k + 1)-cores and maximal (2k − 1, 2k, 2k + 1)-cores. In previous work, the first author noted that, for all k ≥ 1, |κ2k−1,2k+1 | = 4|κ2k−1,2k,2k+1 | and requested a combinatorial interpretation of this unexpected identity. Here, using the theory of abaci, partition dissection, and elementary results relating triangular numbers and squares, we provide such a combinatorial proof.

AB - Integer partitions which are simultaneously t-cores for distinct values of t have attracted significant interest in recent years. When s and t are relatively prime, Olsson and Stanton have determined the size of the maximal (s, t)-coreκs,t. When k ≥ 2, a conjecture of Amdeberhan on the maximal (2k − 1,2k,2k + 1)-core κ2k−1, 2k, 2k+1 has also recently been verified by numerous authors. In this work, we analyze the relationship between maximal (2k − 1, 2k + 1)-cores and maximal (2k − 1, 2k, 2k + 1)-cores. In previous work, the first author noted that, for all k ≥ 1, |κ2k−1,2k+1 | = 4|κ2k−1,2k,2k+1 | and requested a combinatorial interpretation of this unexpected identity. Here, using the theory of abaci, partition dissection, and elementary results relating triangular numbers and squares, we provide such a combinatorial proof.

KW - Abaci

KW - P-cores

KW - Symmetric group

KW - Triangular numbers

KW - Young diagrams

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A combinatorial proof of a relationship between maximal (2k − 1, 2k + 1)-cores and (2k − 1, 2k, 2k + 1)-cores

Abstract

Bibliographical note

Keywords

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